CN116215374B - Intelligent rearview mirror with movable expansion sleeve - Google Patents

Abstract

The invention relates to an intelligent rearview mirror with a movable expansion sleeve, which is characterized in that a lens is arranged in the outer sheath, an outwards-protruding positioning sleeve is arranged in the middle of the back of the outer sheath, a pressing sleeve is arranged on the positioning sleeve in a sliding manner, a pressing rod is fixed in the pressing sleeve, a hinge seat which is fixed on the back of the lens and is symmetrical to two sides of the pressing rod is arranged in the outer sheath, two warping plates extend from the inner side of the outer sheath to two sides in opposite directions from the other end of the pressing rod, an intelligent integrated circuit board facing the lens is arranged in the outer sheath, the rear side of a force unloading plate and the back of the outer sheath are elastically connected together by a spring rod, so that the circuit board can be subjected to force unloading treatment.

Description

Intelligent rearview mirror with movable expansion sleeve

Technical Field

The invention relates to the technical field of rearview mirrors, in particular to an intelligent rearview mirror with a movable expansion sleeve.

Background

The rearview mirror is arranged right in front of the cab and is close to the front window glass of the cab, plays a role in rearview and observing a rear vehicle, so that the driving safety of the driver is ensured, the rearview mirror is different from the rearview mirrors at two sides of the vehicle body, except for different mounting positions, the rearview mirror is fixed on a cab or is adsorbed on the front window glass in a mode of a single sucking disc or a bracket, and along with the continuous improvement of social development, the rearview mirror has intelligence, such as reversing images, panoramic shooting and the like.

However, when the front window glass is broken due to the impact of the emergency, the rearview mirror mounted at the same position is damaged, the impact force generated during the glass breaking can directly act on the outer cover sheath through the sucker or the bracket, then the sheath is broken, and the circuit board used for providing signals for the intelligent system in the sheath is broken, so that the vehicle loss is increased, and therefore, when the emergency occurs, the problem of reducing the vehicle loss is solved.

Disclosure of Invention

Based on the problems, the invention provides the intelligent rearview mirror with the movable expansion sleeve, when an emergency occurs to a vehicle, the sheath of the rearview mirror rotates to move to generate unloading force, and the circuit board in the mirror is protected to reduce loss.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides a take portable intelligent rear-view mirror that expands cover, includes the oversheath, the inside of oversheath is equipped with the lens, be equipped with outside bellied spacer bush in the middle of the back of oversheath, the sliding sleeve is equipped with the pressure cover on the spacer bush, be fixed with the depression bar in the pressure cover, be equipped with in the oversheath and fix at the lens back and symmetrical in the articulated seat of depression bar both sides, swing joint has the rocker on two articulated seat, two rocker be close to in the one end of depression bar be equipped with towards the crooked seesaw portion of depression bar direction, two rocker be kept away from the other end of depression bar and extend to both sides in mutually opposite direction from the oversheath inside and at oversheath internally mounted have the intelligent integrated circuit board that faces in the lens, the depression bar runs through in proper order and gets into the oversheath through in the oversheath and be equipped with the extrusion bellied that contacts jointly in two seesaw portion in the oversheath, when the pressure cover is along the direction rectilinear motion of spacer bush towards the oversheath, simultaneously make the depression bar with the extrusion bellied joint in two seesaw, make two rocker self-hinging seat rotate towards the back direction of oversheath, the opposite direction of oversheath, the spring is equipped with the opposite to the opposite direction of rotation, the spring is equipped with the rocker and the opposite to the both sides are connected to the inner side of oversheath, the inner side of the oversheath is connected to the two rocker and the inner side of the oversheath, the inner side of the inner cover is equipped with a pair of the opposite to the opposite side, the inner side of the inner cover is connected with a groove, the inner side of the inner cover is connected to the tip opposite to the inner side of the plug, the inner side of the inner cover is connected with the inner side of the plug, and the inner side of the inner cover has a groove, and the inner cover and has a groove of the inner cover and a groove of the plug groove, when the force-unloading plate is pushed by the seesaw to rotate towards the back direction of the outer sheath and the movable groove is opened, the spring rod is utilized to elastically unload the force-unloading plate.

As a further preferred option: the back of oversheath is offered and is used for making the depression bar run through the through-hole that gets into, the protruding oversheath that is located of extrusion, and the protruding outline size of extrusion is greater than the aperture size of through-hole.

As a further preferred option: one end of the back of the outer sheath is provided with a camera electrically connected with the intelligent integrated circuit board, and the camera is arranged on one of the two force unloading plates.

As a further preferred option: the camera and the joint of the force unloading plate are provided with flexible sleeves, and the flexible sleeves enable the camera to move flexibly on the force unloading plate, so that the force unloading plate drives the camera to rotate until the camera contacts with an impact object, and the camera can freely unload force through the flexible movement trend of the flexible sleeves.

As a further preferred option: the back both ends of oversheath respectively are equipped with one and keep away from the guide rail in the wane, respectively are equipped with a gyro wheel in two guide rails, respectively are connected with a first locating lever that deviates from in oversheath direction vertical extension on two gyro wheels, and the end of two first locating levers all is equipped with first sucking disc, the depression bar is kept away from and has been seted up the shoulder hole in its bellied other end that is equipped with the extrusion, be equipped with the damping cover in the shoulder hole, damping cover internal fixation has the second locating lever, the second locating lever crookedly extends to be equipped with the second sucking disc at its extension end, the cover is equipped with first spring on the depression bar, the one end of first spring is from internal connection in pressing the cover, and the other end of first spring is from internal connection in the locating cover, first sucking disc and second sucking disc adsorb on automobile front window glass to make the rear-view mirror can fix.

As a further preferred option: the rocker and the lens are connected with a tension spring from the inside of the outer sheath, so that a safety space is formed between the rocker and the lens, and meanwhile, a safety space is formed between the intelligent integrated circuit board and the lens, which are mounted on the rocker.

As a further preferred option: the intelligent integrated circuit board is connected with the rocker through the sliding seat in a sliding mode, the sliding groove is formed in the rocker along the length direction of the rocker, the intelligent integrated circuit board is connected to the sliding groove in a sliding mode, a supporting spring is arranged between the sliding seat and the rocker, the sliding seat pushes the intelligent integrated circuit board to move to the tail end of the rocker through the elastic supporting effect of the supporting spring, when the rocker rotates to the tail end of the rocker, the tail end of the intelligent integrated circuit board contacts with the force unloading plate and continues to rotate, the tail end of the intelligent integrated circuit board also contacts with the force unloading plate, and under the reverse effect of the force unloading plate, the intelligent integrated circuit board is driven by the sliding seat to move along the sliding groove towards the direction of the tilting portion.

As a further preferred option: the tail end of the intelligent integrated circuit board is provided with a metal buckle cover which can be contacted with the force unloading plate.

Compared with the prior art, the invention has the following beneficial effects:

The rear view mirror is internally provided with the rocker, the sheath is provided with the movable force unloading plate, the rocker is positioned at the rear side of the lens, the integrated circuit board is arranged on the rocker in a sliding way through the channel, when the rear view mirror is arranged on the front window of the automobile through the sucker, once the front window is broken due to accident, the impact force on the rear view mirror can act on the middle pressure lever, the inner end of the pressure lever can enter the rear view mirror to impact on the rocker, the rocker rotates and rotates towards the direction of the outer sheath, the back of the outer sheath is provided with the rotatable force unloading plate, the rocker impacts on the force unloading plate when rotating backwards, so that the force unloading plate rotates and unloads force to the rocker, the impact force is reduced, the rocker is protected, the rear side of the force unloading plate and the back of the outer sheath are elastically connected together through the spring rod, the rocker is buffered when the force is unloaded, and the circuit board on the rocker slides along the channel along with the rotating force unloading force, so that the circuit board can also be unloaded, and the accident can be completely prevented from being damaged by the aid of the self-protection device when the automobile is suddenly rotated, and the accident is avoided, and the self-protection is also can be avoided.

Drawings

FIG. 1 is a schematic view of the back structure of the present invention;

fig. 2 is a schematic view of the front view of the invention from fig. 1, with a lateral cut away and with one of the rocker removed;

FIG. 3 is a schematic view of the present invention in a top view, after being cut in a transverse direction;

FIG. 4 is an enlarged view of the portion A of FIG. 3 according to the present invention;

FIG. 5 is a schematic top plan view of a slider mounted on the back of a smart IC board according to the present invention;

Fig. 6 is a schematic view of a partial structure of the present invention with the back region of the outer sheath removed rearward.

The main reference numerals illustrate:

1. An outer sheath; 2. a lens; 3. a positioning sleeve; 4. pressing the sleeve; 5. a compression bar; 6. is provided with a hinge seat; 7. a seesaw; 8. a tilting part; 9. extruding the bulge; 10. a movable groove; 11. a force-unloading plate; 12. a spring rod; 13. an intelligent integrated circuit board; 14. a through hole; 15. a camera; 16. a guide rail; 17. a roller; 18. a first positioning rod; 19. a first suction cup; 20. a stepped hole; 21. a damping sleeve; 22. a second positioning rod; 23. a second suction cup; 24. a first spring; 25. a tension spring; 26. a safe space; 27. a flexible sleeve; 28. a slide; 29. a support spring; 30. a metal buckle cover; 31. and a sliding groove.

Detailed Description

The following description of the embodiments of the present invention, taken in conjunction with the accompanying drawings, will be clearly and fully described in terms of the drawings, wherein the embodiments described are some, but not all, of the embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, are intended to fall within the scope of the present invention.

In the description of the present invention, it should be noted that, as the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used for convenience of description and simplicity of description, only as to the orientation or positional relationship shown in the drawings, and not as an indication or suggestion that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the invention.

In the description of the present invention, it should be noted that unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" should be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present form will be understood in the specific case by those skilled in the art.

Referring to fig. 1-6, an intelligent rearview mirror with a movable expansion sleeve comprises an outer sheath 1, wherein a lens 2 is arranged in the outer sheath 1, an outwards-protruding positioning sleeve 3 is arranged in the middle of the back of the outer sheath 1, a pressing sleeve 4 is arranged on the positioning sleeve 3 in a sliding manner, a pressing rod 5 is fixed in the pressing sleeve 4, a hinge seat 6 which is fixed on the back of the lens 2 and symmetrical to two sides of the pressing rod 5 is arranged in the outer sheath 1, two hinge seats 6 are movably connected with warping plates 7, the two warping plates 7 extend towards two sides in opposite directions in the outer sheath 1, one end of each warping plate 7 close to the pressing rod 5 is provided with a warping part 8 which bends towards the direction of the pressing rod 5, the other end of each warping plate 7 far away from the pressing rod 5 extends towards two sides from the inner part of the outer sheath 1 in opposite directions, an intelligent integrated circuit board 13 which faces the lens 2 is arranged in the inner part of the outer sheath 1, the compression bar 5 sequentially penetrates through the positioning sleeve 3 and the outer sheath 1 to enter the outer sheath 1 and is provided with extrusion protrusions 9 which are contacted with the two tilting parts 8 together, when the compression sleeve 4 moves linearly along the direction of the positioning sleeve 3 towards the outer sheath 1, the compression bar 5 simultaneously presses the two tilting parts 8 together through the extrusion protrusions 9, so that the two warping plates 7 rotate towards the back of the outer sheath 1 from the hinging seat 6, two movable grooves 10 which are symmetrical to the two sides of the positioning sleeve 3 and form a two-notch structure at the back of the outer sheath 1 are formed on the back surface of the outer sheath 1, a force unloading plate 11 corresponding to the back rotation range of the two warping plates 7 is arranged in each of the two movable grooves 10 through a pin shaft, and when the two warping plates 7 rotate from the inner side of the outer sheath 1 towards the back of the outer sheath 1 to contact with the force unloading plate 11, the force-unloading plate 11 is pushed to synchronously rotate along with the movable groove 10, the movable groove 10 is opened to enable the inside of the outer sheath 1 to be communicated with the outside, two spring rods 12 symmetrical to two sides of the positioning sleeve 3 are fixed on the back of the outer sheath 1, one end of each spring rod 12 is connected with the back of the outer sheath 1 to extend to be connected with the force-unloading plate 11, and when the force-unloading plate 11 is pushed by the rocker 7 to rotate towards the back direction of the outer sheath 1 and the movable groove 10 is opened, elastic force unloading is implemented on the force-unloading plate 11 by the spring rods 12.

To sum up, this intelligence rear-view mirror is installed when using on car front window glass, in case the traffic accident takes place, and there is the striking thing striking in front window glass, when leading to its front window glass damaged, the impact that receives and destruction power will act on depression bar 5, depression bar 5 will advance in the perk 8 direction of two perks 7 along through-hole 14, and utilize the extrusion bulge 9 of its inner to implement the extrusion to perk 8, utilize its extrusion force in order to drive perk 7 round articulated seat 6 backward rotation through perk 8, and strike on unloading board 11, it will be at the back rotation in movable slot 10 when receiving the striking to unload board 11, the rotatory stroke of perk 7 can be elongated, consequently, the impact that it received will reduce, and install intelligent integrated circuit board 13 on the front of perk 7, consequently, can make intelligent integrated circuit board 13 follow perk 1 in the back direction rotation, so can avoid the impact power directly to strike on intelligent integrated circuit board 13 or directly strike in oversheath 1 and cause intelligent integrated circuit 13 to make the large scale, the integrated circuit 13 can also be greatly damaged in the circumstances that can be read by the intelligent protection module, even when the intelligent protection device 13 need the large-level self-protection device is installed, the high-level protection device is realized, the self-protection device can be protected, and the probability of the self-protection can be greatly need to be reduced, the chip 13, even if the self-protection can be easily be protected. The installation direction of depression bar 5 just lies in the back of oversheath 1, the back of oversheath 1 is for continuing bellied evagination form structure towards back direction during actual production, with this furthest's extension depression bar 5 back one end and the distance between the oversheath 1 inner chamber, and the depression bar 5 gets into the length in oversheath 1 unchangeable, still ensure its extrusion protrusion 9 corresponds simultaneously to the perk portion 8 of two wanes 7, depression bar 5 so set up in being close to the front window, the impact force when just having utilized the front window to strike will effort transfer simultaneously on two perks 8, and make two perks 8 extrude two perks 7 simultaneously and accomplish rotatory action, and realize both sides and unload the power, so not only need not to set up alone and report to the police and automatic mechanism makes two perks 7 accomplish except unloading force protection to the intelligent integrated circuit board 13 above, and the symmetrical setting mode of two perks 7, and the mode of unloading the power simultaneously makes the atress balanced, the effect has been improved, thereby can also prevent that both from appearing by a wide margin deformation when striking. By providing the movable groove 10 on the back of the outer sheath 1 and rotationally installing the force-releasing plate 11 in the movable groove 10 to correspond to the force-releasing force formed by the two seesaw plates 7, it is known that the force-releasing force is not limited to the rotation range formed in the outer sheath 1 only when the seesaw plates 7 rotate, but the force-releasing plate 11 is impacted when the seesaw plates are impacted greatly, so that the rotation range is changed from the inner side of the outer sheath 1 to the outer side of the outer sheath 1, the rotation space is increased, and the destructive force of the seesaw plates 7 can be counteracted to the greatest extent even if the seesaw plates are impacted greatly.

The other part of the rocker 7 without the intelligent integrated circuit board 13 is not provided with the flexible sleeve 27, besides the action of the double auxiliary unloading force on the rocker 7 provided with the intelligent integrated circuit board 13, the rocker 7 is correspondingly arranged in front of the camera 15 on the opposite side, the camera 15 is arranged on the rocker 11 which is correspondingly arranged on the same side and is of the same mounting structure, the joint of the camera 15 and the rocker 11 is provided with the flexible sleeve 27, the flexible sleeve 27 enables the camera 15 and the rocker 11 to form a moving trend which can enable the camera 15 to flexibly act on the rocker 11, when the rocker 8 corresponding to the inner end of the rocker 7 is impacted by the extrusion bulge 9, the rocker 7 also rotates towards the back direction like the rocker 7 corresponding to the rocker 13, the rocker 11 corresponding to the back movable groove 10 is pushed to rotate in the direction, the rocker 7 is not in the direction of the rocker 11, the joint of the rocker 11 is not in direct contact with the rocker 11, the flexible sleeve is formed by the flexible sleeve 27, and the flexible sleeve is pushed by the other side of the rocker 11, and the flexible sleeve is not in the direction of the opposite side, and the flexible sleeve is pushed by the other side of the rocker 11, and the flexible sleeve is formed when the flexible sleeve is pushed by the opposite to the other flexible sleeve, and the flexible sleeve is not in the opposite direction, and the plastic deformation of the flexible sleeve is formed.

The back both ends of oversheath 1 are equipped with respectively and are kept away from the guide rail 16 in wane 7, respectively be equipped with a gyro wheel 17 in two guide rails 16, respectively be connected with a first locating lever 18 that deviates from in oversheath 1 direction vertical extension on two gyro wheels 17, the end of two first locating levers 18 all is equipped with first sucking disc 19, the depression bar 5 has been seted up shoulder hole 20 in the other end that is equipped with extrusion arch 9 far away from it, be equipped with damping cover 21 in shoulder hole 20, damping cover 21 internal fixation has second locating lever 22, the crookedly extends of second locating lever 22, and be equipped with second sucking disc 23 at its extension end, the cover is equipped with first spring 24 on the depression bar 5, the one end of first spring 24 is from internal connection in pressing sleeve 4, the other end of first spring 24 is from internal connection in locating sleeve 3, first sucking disc 19 and second sucking disc 23 adsorb on car front window glass, so that the rear-view mirror can be fixed. Because the three suckers are adopted to be arranged on the front window glass during the installation of the rearview mirror, three fixing points are formed, the fixing points which are arranged on two sides and formed by the first positioning rod 18, the first sucker 19 and the roller 17 are matched with the guide rail 16 and the roller 17, the two ends of the rearview mirror after the installation of the rearview mirror are rotatable, the second positioning rod 22 which is arranged in the middle and formed by the damping sleeve 21 and the damping sleeve 21 in the stepped hole 20 of the pressing rod 5 is rotatably arranged on the front window glass through the structural characteristics of the second sucker 23, the rearview mirror can be adjusted to be in addition to the visual angle, when the front window is crashed, the first sucker 19 and the second sucker 23 are plastically deformed, the whole rearview mirror is directly fallen down, the whole rearview mirror is protected, if the fixing points on two sides are still adsorbed on the glass, the second positioning rod 22 which continuously extends towards the back direction is just used for transmitting the impact force on the pressing rod 5 when being impacted, the pressing bulge 9 at the inner end of the pressing rod 5 is impacted on the raising part 8 at the end of the two raising plates 7, and thus the two intelligent motion plates 13 are formed by the two intelligent motion plates 13.

The tension springs 25 are connected between the rocker 7 and the lens 2 from the inside of the outer sheath 1, so that a safety space 26 is formed between the rocker 7 and the lens 2, meanwhile, a safety space 26 is formed between the intelligent integrated circuit board 13 arranged on the rocker 7 and the lens 2, two tension springs 25 and two spring rods 12 arranged at the back of the two force-unloading plates 11 form front and back elastic components when the rocker 7 rotates towards the back direction and drives the force-unloading plates 11 to synchronously rotate along with the rocker, namely, when the rocker 7 rotates towards the back direction to form force-unloading protection for the upper intelligent integrated circuit board 13, the tension springs 25 at the front side of the rocker 7 elastically stretch to provide buffer force for the rocker 7, reduce the vibration force of the intelligent integrated circuit board 13 and form buffer protection, and secondly, when the impact force is eliminated, the rocker 7 is pulled back again to reset, the spring rods 12 (which can be also understood as the torsion springs arranged between the force-unloading plates 11 and the outer wall of the outer sheath 1 through pin shafts) deform and form buffer force-unloading effects on the intelligent integrated circuit board 13, and the intelligent integrated circuit board 13 is transferred from the back direction, and the force-unloading effect of the intelligent integrated circuit board 13 is transferred from the back direction.

As shown in fig. 5 and 6: the sliding groove 31 is formed in the rocker 7 along the length direction of the rocker 7, the sliding seat 28 is arranged on the intelligent integrated circuit board 13, the intelligent integrated circuit board 13 is connected to the sliding groove 31 in a sliding manner through the sliding seat 28, the supporting spring 29 is arranged between the sliding seat 28 and the rocker 7, the sliding seat 28 pushes the intelligent integrated circuit board 13 to move to the tail end of the rocker 7 through the elastic supporting function of the supporting spring 29, when the rocker 7 rotates to the tail end of the rocker 13 to be contacted with the force unloading plate 11 and continuously rotates, the tail end of the intelligent integrated circuit board 13 also contacts the force unloading plate 11, under the reverse function of the force unloading plate 11, the intelligent integrated circuit board 13 is driven by the sliding seat 28 to move along the sliding groove 31 towards the direction of the lifting part 8, the tail end of the intelligent integrated circuit board 13 is provided with the metal buckle cover 30 which can be contacted with the force unloading plate 11, and the intelligent integrated circuit board 13 is not simply fixed on the rocker 7, so that the rocker 7 rotates towards the back direction along the intelligent integrated circuit board 13 to form a large rotation trend and forms a large rotation trend on the force unloading plate 11, and the metal buckle cover 13 can form a compression force protection cover 30 along the direction when the intelligent integrated circuit board 13 is contacted with the right side of the intelligent integrated circuit board 11, and the sliding groove is deformed along the direction.

The foregoing descriptions of specific exemplary embodiments of the present invention are presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain the specific principles of the invention and its practical application to thereby enable one skilled in the art to make and utilize the invention in various exemplary embodiments and with various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (6)

1. An intelligent rearview mirror with a movable expansion sleeve, which is characterized in that: including oversheath (1), the inside of oversheath (1) is equipped with lens (2), be equipped with outside bellied position sleeve (3) in the middle of the back of oversheath (1), the slip cover is equipped with pressure cover (4) on position sleeve (3), pressure cover (4) internally mounted has depression bar (5), be equipped with in oversheath (1) fix at lens (2) back and symmetry in articulated seat (6) of depression bar (5) both sides, swing joint has rocker (7) on two articulated seat (6), and two rocker (7) are close to one end of depression bar (5) and are equipped with and face up portion (8) that warp in depression bar (5) direction, and two rocker (7) are kept away from in the other end of depression bar (5) with the opposite direction of each other from inside to both sides extension of oversheath (1) and at oversheath (1) internally mounted have intelligent integrated circuit board (13) towards lens (2), pressure bar (5) run through in proper order position sleeve (3) and oversheath (1) get into and be equipped with in and press the direction (8) along the direction of extrusion of two bellied portion (3) when too much in the direction of movement (4) of the extrusion of joint (1), simultaneously, the compression bar (5) applies pressure to the two tilting parts (8) through the extrusion bulge (9), so that the two tilting plates (7) rotate from the hinging seat (6) towards the back direction of the outer sheath (1), two movable grooves (10) which are symmetrical to two sides of the positioning sleeve (3) and enable the back of the outer sheath (1) to be formed with two notch structures are formed on the back surface of the outer sheath (1), one piece of unloading plates (11) which are corresponding to the rotation range of the back of the two tilting plates (7) is arranged in the two movable grooves (10) through pin shafts, when the two tilting plates (7) rotate from the back direction of the outer sheath (1) towards the back direction of the outer sheath (1) to be contacted with the unloading plates (11), the unloading plates (11) are pushed to synchronously rotate along with the unloading plates in the movable grooves (10) and the movable grooves (10) are opened to enable the inner part of the outer sheath (1) to be communicated with the outer part, the two spring rods (12) which are symmetrical to the two sides of the positioning sleeve (3) are fixed on the back of the outer sheath (1), when the unloading plates (12) are pushed from the back of the outer sheath (1) to be connected with the unloading plates (11) towards one end of the back direction of the outer sheath (1), to apply an elastic force-releasing to the force-releasing plate (11) by means of the spring lever (12);

A tension spring (25) is connected between the rocker (7) and the lens (2) from the inside of the outer sheath (1), so that a safety space (26) is formed between the rocker (7) and the lens (2), and meanwhile, a safety space (26) is formed between the intelligent integrated circuit board (13) arranged on the rocker (7) and the lens (2);

Sliding groove (32) have been seted up along its length direction on wane (7), be equipped with slide (28) on intelligent integrated circuit board (13), intelligent integrated circuit board (13) are equipped with between slide (28) and wane (7) and prop spring (29) on sliding groove (32) through slide (28) sliding connection, elastic supporting effect through prop spring (29) makes slide (28) promote intelligent integrated circuit board (13) displacement to the end of wane (7), when wane (7) rotate to its end and unload power board (11) contact and continue rotatory, the end of intelligent integrated circuit board (13) also can contact on unloading power board (11) to under the reverse action of unloading power board (11), so that intelligent integrated circuit board (13) is under slide (28) drive, along sliding groove (32) towards the direction removal in perk portion (8).

2. The intelligent rearview mirror with a movable expansion sleeve according to claim 1, wherein: the back of the outer sheath (1) is provided with a through hole (14) for allowing the compression rod (5) to penetrate into, the extrusion bulge (9) is positioned in the outer sheath (1), and the outline size of the extrusion bulge (9) is larger than the aperture size of the through hole (14).

3. The intelligent rearview mirror with a movable expansion sleeve according to claim 1, wherein: one end of the back of the outer sheath (1) is provided with a camera (15) electrically connected with the intelligent integrated circuit board (13), and the camera (15) is arranged on one of the two force unloading plates (11) and is arranged on the force unloading plate (11).

4. The intelligent rearview mirror with a movable expansion sleeve according to claim 3, wherein: the camera (15) is provided with a flexible sleeve (31) at the joint of the camera and the force unloading plate (11), the flexible sleeve (31) enables a movable trend capable of enabling the camera (15) to flexibly act on the force unloading plate (11) to enable the camera (15) to freely unload force through the flexible movable trend of the flexible sleeve (31) when the force unloading plate (11) drives the camera (15) to rotate to be in contact with an impact object.

5. The intelligent rearview mirror with a movable expansion sleeve according to claim 3, wherein: the back both ends of oversheath (1) respectively are equipped with one and keep away from guide rail (16) in wane (7), are equipped with one in two guide rails (16) gyro wheel (17) respectively, are connected with one on two gyro wheels (17) and deviate from first locating lever (18) that extend perpendicularly in oversheath (1) direction, and the end of two first locating levers (18) all is equipped with first sucking disc (19), the depression bar (5) keep away from other end that is equipped with extrusion arch (9) in it and seted up shoulder hole (20), be equipped with damping cover (21) in shoulder hole (20), damping cover (21) internal fixation has second locating lever (22), second locating lever (22) crookedly extend to be equipped with second sucking disc (23) at its extension end, the cover is equipped with first spring (24) on depression bar (5), the one end of first spring (24) is from internal connection in pressing cover (4), and the other end of first spring (24) is from internal connection in positioning cover (3), first sucking disc (19) and second sucking disc (23) adsorb on glass before making the rear-view mirror.

6. The intelligent rearview mirror with a movable expansion sleeve according to claim 1, wherein: the tail end of the intelligent integrated circuit board (13) is provided with a metal buckle cover (30) which can be contacted with the force unloading plate (11).